Modular LED flood light
Abstract
A modular luminaire which uses LED light sources. The basic frame comprises two end pieces compressed together by through bolts. At least one elongated heat sink is compressed between the end pieces. Each heat sink may bear a plurality of LEDs mounted on a printed circuit board which may have an integral metallic backplate, and is installed on one of the heat sinks with a layer of heat conductive grease therebetween. The heat sinks have fins projecting in three directions, the fourth direction being accounted for by the LEDs, and are rotatable about their longitudinal axes to adjust direction of light propagation. The heat sinks are arrayed in an arc, so that the outside heat sinks shield observers from direct glare from opposed heat sinks. Heat sinks may be extruded to form cooling fins and slots which may receive fasteners such as screws.
Claims
exact text as granted — not AI-modifiedI claim:
1. A luminaire which uses a plurality of LEDs as a light source, comprising:
a plurality of heat sinks each having a proximal end, a distal end, a length defined between the proximal end and the distal end, a proximal end piece disposed to support the proximal ends of each one of the heat sinks;
a distal end piece disposed to support the distal ends of each one of the heat sinks;
a plurality of through bolts disposed to extend from the proximal end piece to the distal end piece and to unite the proximal end piece and the distal end piece, and to draw the proximal end piece towards the distal end piece while entrapping each one of the heat sinks between the proximal end piece and the distal end piece; and
electrical supply circuitry disposed to connect electrical power to each one of the LEDs, wherein the electrical supply circuitry comprises a power converter mounted to the luminaire out of contact with the heat sinks.
2. The luminaire of claim 1 , wherein the circuitry is arranged to supply the LEDs of each one of the heat sinks individually from the power converter, whereby failure of electric supply to at least one of the LEDs of any one heat sink does not impact operability of LEDs of other heat sinks.
3. The luminaire of claim 1 , further comprising a bracket which is mounted to the luminaire and is out of contact with any of the heat sinks, and wherein the power converter is supported on the bracket out of contact with and away from the heat sinks.
4. A luminaire which uses a plurality of LEDs as a light source, comprising:
a plurality of heat sinks each having a proximal end, a distal end, a length defined between the proximal end and the distal end, a proximal end piece disposed to support the proximal ends of each one of the heat sinks, further comprising a clamp for mounting the proximal end piece to a pole to support the luminaire above the ground, wherein at least part of the clamp is formed integrally with the proximal end piece;
a distal end piece disposed to support the distal ends of each one of the heat sinks;
a plurality of through bolts disposed to extend from the proximal end piece to the distal end piece and to unite the proximal end piece and the distal end piece, and to draw the proximal end piece towards the distal end piece while entrapping each one of the heat sinks between the proximal end piece and the distal end piece; and
electrical supply circuitry disposed to connect electrical power to each one of the LEDs.
5. A luminaire which uses a plurality of LEDs as a light source, comprising:
a plurality of heat sinks each having a proximal end, a distal end, a length defined between the proximal end and the distal end, a proximal end piece disposed to support the proximal ends of each one of the heat sinks, wherein each one of the heat sinks has a plurality of fastener thread receiving channels extruded thereinto and extending along the length of its associated said heat sink;
a distal end piece disposed to support the distal ends of each one of the heat sinks;
a plurality of through bolts disposed to extend from the proximal end piece to the distal end piece and to unite the proximal end piece and the distal end piece, and to draw the proximal end piece towards the distal end piece while entrapping each one of the heat sinks between the proximal end piece and the distal end piece; and
electrical supply circuitry disposed to connect electrical power to each one of the LEDs.
6. The luminaire of claim 5 , wherein for each one of the heat sinks, one of the fastener thread receiving channels is centered within its associated said heat sink, whereby each said heat sink can be angularly adjusted as to its mounting position by threading a fastener into the centered fastener thread receiving channel and rotating the heat sink about its longitudinal axis prior to tightening the through bolts.Cited by (0)
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